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. 2018 Mar;42(3):455-461.
doi: 10.1038/ijo.2017.254. Epub 2017 Oct 10.

Body mass index is associated with cortical thinning with different patterns in mid- and late-life

M E Shaw  1 P S Sachdev  2 W Abhayaratna  3 K J Anstey  3 N Cherbuin  3
Affiliations

Body mass index is associated with cortical thinning with different patterns in mid- and late-life

M E Shaw et al. Int J Obes (Lond). 2018 Mar.

Abstract

Objective: High BMI at midlife is associated with increased risk of dementia as well as faster decline in cognitive function. In late-life, however, high BMI has been found to be associated with both increased and decreased dementia risk. The objective of this study was to investigate the neural substrates of this age-related change in body mass index (BMI) risk.

Methods: We measured longitudinal cortical thinning over the whole brain, based on magnetic resonance imaging scans for 910 individuals aged 44-66 years at baseline. Subjects were sampled from a large population study (PATH, Personality and Total Health through Life). After attrition and exclusions, the final analysis was based on 792 individuals, including 387 individuals aged 60-66 years and 405 individuals aged 44-49 years. A mixed-effects model was used to test the association between cortical thinning and baseline BMI, as well as percentage change in BMI.

Results: Increasing BMI was associated with increased cortical thinning in posterior cingulate at midlife (0.014 mm kg-1 m-2, confidence interval; CI=0.005, 0.023, P<0.05 false discovery rate (FDR) corrected). In late-life, increasing BMI was associated with reduced cortical thickness, most prominently in the right supramarginal cortex (0.010 mm kg-1 m-2, CI=0.005-0.016, P<0.05 FDR corrected), as well as frontal regions. In late-life, decreasing BMI was also associated with increased cortical thinning, including right caudal middle frontal cortex (0.014 mm kg-1 m-2 (CI=0.006-0.023, P<0.05 FDR corrected).

Conclusions: The pattern of cortical thinning-in association with increasing BMI at both midlife and late-life-is consistent with known obesity-related dementia risk. Increased cortical thinning in association with decreasing BMI at late-life may help explain the 'obesity paradox', where high BMI in midlife appears to be a risk factor for dementia, but high BMI in late-life appears, at times, to be protective.

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